This document summarizes an article about India's energy policy and the need to promote renewable energy sources. It discusses how India has vast renewable energy resources and the government has implemented various policies and incentives to promote greater renewable energy deployment. The key challenges are India's limited fossil fuel reserves, high fuel transportation costs, aging conventional power plants, need to rationalize power tariffs, and reduce transmission and distribution losses in the power sector. The government is aiming to source 10% of additional grid power capacity from renewable sources by 2012 to help address these issues through its renewable energy policies.

1. IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE)
e-ISSN: 2278-1676,p-ISSN: 2320-3331, Volume 10, Issue 1 Ver. III (Jan – Feb. 2015), PP 67-72
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DOI: 10.9790/1676-10136772 www.iosrjournals.org 67 | Page
Energy Policy in India
Vipul Kumar1
, Rajnish Kumar2
, Ashish Maithani3
1
(Assistant Professor and Head, Electrical Department, Uttaranchal University, India)
2
(Assistant Professor, Electrical Department, Uttaranchal University, India)
3
(Assistant Professor, Electrical Department, Uttaranchal University, India)
Abstract: This paper is related with the importance of the energy policy and renewable energy which play a
great role in the development and environmental benefits. India has a vast supply of renewable energy
resources and it is one of the largest countries in the world for deploying renewable energy. This paper attempts
to review the policies and planning measures undertaken by the Indian government for promotion of renewable
energy. Low impact renewable energy (LIRE) technologies offer important benefits compared to conventional
energy sources, such as fossil fuels or nuclear power. However due to their uncertainty different kinds of
renewable-energy resources need to be operated in an integrated way, which complement each other. Global
electricity demand is expected to increase considerably during the next decade and at the same time
environmental pollution is also increasing with the development of conventional energy source. To meet the
challenges for global energy demand various support schemes, policies and planning to promote use of
renewable energy sources are discussed in this paper.
Keywords: renewable energy policy, energy planning
I. Introduction
This paper contains the need to extract energy from renewable sources. The development of such an
energy infrastructure needs proper planning. Energy system planning and development involves the effective
utilization of energy resources and technologies for meeting energy demand in a sustainable manner. Today's
markets for low impact of renewable energy (LIRE) technologies range from specialized niche markets, where
the technologies are already cost-effective, to centralized energy production. For centralized energy production,
LIRE systems are relatively capital intensive compared to competing conventional technologies.
However, operating and maintenance costs are low compared with those for production of conventional
fuels. However, the demand of electricity has always been overstepping the supply. The importance of
electricity as a prime mover of growth is very well acknowledged in order to boost the development of power
sector. So there is a great need of renewable energy source in Indian power sector to meet future energy demand
with consideration of the sustainable development and pollution free environment. For inclusion of renewable
energy sources in competitive electricity market India have adopted various supports schemes and policies to
promote renewable energy sources in their restructured power sector.
II. Need of energy policy
A favorable policy framework, motivated players (e.g. energy service companies), and adequate
incentive structures are key. Energy policy must create a level playing field to stimulate competition between
options of energy supply and of demand-side energy efficiency that provide the same level of energy services. It
is not the upfront price, but the total cost over the whole life cycle of an energy systems solution that is decisive
for profitable investment decisions. Even if the investment costs of advanced technologies are higher at the
beginning, the lifecycle costs (including running costs e.g. for power, maintenance and waste disposal),
especially for efficient end-use technologies, are often cheaper compared to conventional technologies when
used in an integrated operation.
Therefore, the policy and regulatory framework must create supportive incentive structures, raise
awareness for lifecycle cost (LCC) analysis and enable good practice projects and innovations to become the
market standard. The next sections of the paper deal with the important aspects those need immediate attention
to foster use of LIRE technologies so as to achieve sustainable energy system. [1], [2], [3].
III. Overview Of Low-Impact Renewable Energy Technologies
LIRE sources generally include small-scale hydro, sustainably harvested biomass, wind, solar, earth and waste
energy. Examples of LIRE technologies include:
 Wind-generated electricity;
 Solar heating or solar-generated electricity (e.g., photovoltaic);
 Biomass resources (if harvested and utilized in a sustainable manner);

2. Energy Policy in India
DOI: 10.9790/1676-10136772 www.iosrjournals.org 68 | Page
 Water velocity energy (e.g., run-of-river, free stream, tidal or wave turbines); and
 Geothermal (earth) energy (including thermal energy in aquifers).
IV. Energy Planning Tools
Comprehensive energy analysis entails the evaluation of alternative configurations of the energy
system that will balance energy supply and demand. Many different nation energy models have been developed
over the year for energy policy planning world-wide. [4], [5].
The advent of cheap and powerful personal computers and international sharing of energy planning
tool such as ENPEP, MARKEL, MAED and LEAP have facilitated the advancement of energy model based
research and planning. A brief description of these tools as follows.
A. Energy and Power Evaluation Program (ENPEP)
ENPEP is a tool that lets researchers and planners compare alternatives quickly to determine the most
cost-effective and environmentally safe solutions for a country's energy needs. [6]. The balance module of
ENPEP uses a non linear equilibrium approach to determine the energy supply and demand balance. For its
simulation, the model uses an energy network that is design to trace the flow of energy from primary source to
energy demand. Demand is the sensitive to the price of alternatives. Supply price is sensitive to the quality
demanded. In its operation, balance simultaneously tried to find the intersection for all energy supply form and
all energy uses that are included in the energy network. The equilibrium is reached when the model finds a set of
prices and quantities that satisfied all relevant equation and inequalities. The model is typically used to analyze a
20-30 year forecast period. [7].
B. Market Allocation Program (MARKAL)
MARKEL is a linear programming (LP) model of a generalized energy system. It is demand drive for
which feasible solutions are obtained only if specified end-use demands for energy are satisfied for every time
period. The end-use energy demand for each demand sector and for each time period is exogenously forecast.
The objective is to determine the optimum activity levels of processes that satisfy the constraints at minimum
cost. [8], [9].
C. Long-Range Energy Alternative Planning System (LEAP)
LEAP is an energy accounting framework. It contains a full energy system which enables consideration
of both demand-side and supply-side technologies and accounts for total system impacts [10].
D. Model for Analysis of Energy Demand (MAED)
MAED model evaluates future energy demand based on medium- to long-term scenarios of socio-
economic, technological and demographic developments. The model relates systematically the specific energy
demand for producing various goods and services identified in the model, to the corresponding social, economic
and technological factors that affect this demand [11].
E. Comparison of Energy Modelling Tools
ENPEP, MARKAL and LEAP are economy level models. They are used to facilitate the decision to
provide the economy with energy supply to satisfy the future energy demand by least cost by taking into
consideration issues such as energy security, new technologies and environmental problems. There are no set
rules as such for selecting a model to be the ideal model for an economy's energy planning. However,
MARKAL is a good choice if technical and statistical data are relatively plentiful and assumptions of optimizing
models are reasonable in the study context. ENPEP-BALANCE is a good choice in similar situations to
MARKAL, particularly if there is need to take a market- simulation approach, and optimization assumptions are
not appropriate.
V. Energy System Planning For India
ENPEP-BALANCE has been chosen for carrying out the current study. The interactive network
designing features of BALANCE were used to build the integrated power and energy network for India. The
market-sharing algorithm of BALANCE allows the simulation of market operations with multiple decision end
makers, as opposed to least-cost optimization approaches that simulate a single decision maker. BALANCE has
the flexibility to utilize forecasts from other sources. In this study future energy demand obtained from MAED
and elasticity projections for energy and electricity were used in BALANCE.

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Fig: 1. Elasticity of Total Primary Commercial Energy Supply (TPCES) with respect to GDP
(Source: Sustainable Energy Future by AD2030 - India Case Study)
A. Commercial Energy Requirements
The Total Primary Commercial Energy Supply (TPCES) projections have been carried out using MAED and
also using elasticity of total primary commercial energy supply (TPCES) and Electricity with respect to Gross
Domestic Product (GDP). Making use of the statistical data of the past three decades, the future elasticity (ratios
of rates of growth) of total primary commercial energy supply and that of electricity requirements with respect
to GDP have been evaluated through trend analysis [12]. The results are given in Figs. 1 above.
VI. Policy Framework For Promotion Of Renewables In India
The policy framework is the key to the success of renewable energy in any country. Policies aim at
overall development and promotion of renewable energy technologies (RETs) and its applications. Policy
initiatives encourage private sector to take part in renewable business as per provision of fiscal and financial
incentives for a wide range of renewable energy (RE) programmes. Policies are largely financial, fiscal
incentives or special directives aimed to encourage or enforced utilities to buy RE power, promoter companies
to set up RE projects, equipment companies to manufacture RE equipment or private and government entities to
undertake R&D relating to RE. In India, policy initiatives encourage domestic private investments with a
provision of fiscal and financial incentives such as tax holidays, accelerated depreciation and duty rebates. At
the central level, policy measures are administered through the Ministry of New and Renewable Sources
(MNRE). The state governments contribute by making available infrastructural facilities for wheeling of power
and buying power from renewable units. A comprehensive RE Policy for all-round development of the sector,
encompassing all the key aspects, has been formulated by MNRE. The broad objectives envisaged in the draft
policy are as meeting the minimum energy needs through RE, Providing decentralized energy supply in
agriculture, industry, commercial and household sectors in rural and urban areas, and providing grid quality
power. The policies targeting of 10% of additional grid power Generation capacity to come from RE by
2012[13]. Some of the policies and fiscal incentives in India for renewable energy developments are discussed
in later sections.
A. Foreign Investment Policy
Foreign investors can enter into a joint venture with an Indian partner for financial and/or technical
collaboration and for setting up of RE-based power generation projects. Proposals for up to 100 per cent foreign
equity participation in a joint venture qualify for automatic approval and with this 100% foreign investment as
equity is permissible with the approval of the Foreign Investment Promotion Board (FIPB). The Government of
India encourages foreign investors to set up RE-based power generation projects on Build, Own and Operate
(BOO) basis [14]. Government also encourages foreign investors to set up power projects based on other
nonconventional energy sources also. Investors are required to enter into a power purchase agreement with the
concerned state government. [15].
No prior approval of the government is required to set up an industrial undertaking with Foreign Direct
Investment (FDI) by Non-Resident Indians (NRIs). The Reserve Bank of India (RBI) has permitted Indian
companies to accept investment under the 'automatic route' without obtaining prior approval from RBI to set up
such renewable based projects. [16]
B. Foreign Investment Implementation Authority (FIIA)
The FIIA has been set up in the Ministry of Commerce and Industry to translate FDI approvals and
implementations. It is headed by the Secretary (Department of Industrial Policy & Promotion) and is serviced by
the SIA. FIIA would provide a one-stop after-care service to foreign investors by helping them to expedite

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approvals and clearances and to sort out operational problems with other government agencies. It will act as a
single-point interface between the investors and government agencies including administrative ministries, state
governments, Pollution Control Boards, Directorate General of Foreign Trade, regulatory authorities, tax
authorities and Company Law Board among other and the approval holders have been requested to get in touch
with respective officers in FIIA Hence the provisions in FIIA are directly or indirectly linked with renewable
promotion. [17].
C. Industrial Policy
In industrial policy, MNRE is promoting medium, small, mini and micro enterprises for manufacturing
and servicing of various types of RE systems and devices. For setting-up of an RE industry, industrial clearances
as well as no clearance is required from Central Electricity Authority (CEA) for power generation projects up to
Rs 1,000 million. [18].
For RE power generation projects government is allowed five year tax holiday and for RE equipment
manufacturing, Soft loans are available through IREDA .Financial support is also available to RE industries for
R&D projects in association with technical institutions. Private sector companies can set up enterprises to
operate as licensee or generating companies. Customs duty concession is available for RE spares and equipment,
including those for machinery required for renovation and modernization of power plants. They are also
expected to convey the government's decisions on applications filed and for assisting entrepreneurs to set up
projects and monitoring implementation [19].
D. Joint Ventures Policies
Joint ventures are a financial as well as technical collaboration and they are used by foreign investors
as it provides maximum visibility and presence in the country. A foreign investor can enter into a joint venture
not only for manufacturing RE products and systems, but also in setting up RE-based power generation projects.
Usually joint ventures are in the form of takeovers or strategic alliances with the existing reputed companies
with a niche market. A foreign investor can set up a liaison office as an intermediate step before entering into a
joint venture.
E. Policies for Small-Scale Industries
Renewable energy technologies (RETs) provide one of the best options for first-generation
entrepreneurs and small-scale industries (SSIs). MNRE and Indian Renewable Energy Development Authority
(IREDA) have drawn up financial and fiscal incentives to suit technology of varying sizes and scales for small-
and medium-sized investors and entrepreneurs. An industrial undertaking is defined as a small scale unit if the
investment in fixed assets in plant and machinery does not exceed Rs.10 million. Small-scale industries (SSIs)
are not permitted more than 24 per cent equity in its paid up capital from any industrial undertaking, foreign or
domestic. SSIs are free to manufacture any item including those notified as exclusively reserved for the small
scale sector and these are free from location restrictions, which are mandatory for large industries. The National
Small Industries Corporation (NSIC), under the Ministry of Industry and Commerce, also provides assistance
through a number of schemes, which include financial and marketing services, technical services and training,
and exports facilitation
VII. Challenges And Constraints
The 11th Five-Year Plan (2007-2012), aims to add over 78,500 MW of new capacity to achieve the
Indian Government‟s ambitious mission of „Power for All by 2012‟. To meet its large and growing power needs,
there are many constraints and key imperatives are required.
A. Limited fuel reserve
In the Indian Power sector, 64.6% of electricity production is from thermal power stations. The main
fuel used is coal. Though India has at least 84,396 million tonnes of proven recoverable coal reserves (at the end
of 2003), amounting to almost 8.6% of the world reserves, they will however last for about 230 years only at the
current Reserve to Production (R/P) ratio.
B. Higher fuel transportation cost
India is a wide spread country and the coal mines are scattered. Though roads and rails connect all parts
of the country, the conditions of the roads and rails are not ideally suited for quick and safe transportation of
coal to the demanded sites. So the transportation of coal to the power stations is an expensive and time-
consuming task. As the transportation cost forms a major portion of the fuel cost, the energy production cost
increases, which in turn affects the industrial growth of the country.

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C. Aging Power Plants
Since most of the power plants have been installed immediately after the independence, they have
become old and inefficient. This is the main reason for low growth rate in electricity generation during the
recent years. Old and inefficient plants need to be replaced or renovated and modernized to achieve the
electricity production target.
D. Rationalization of Power Tariff
Prices of electricity and some of the other energy sources are highly subsidized thereby promoting
inefficient end-use and sometimes even inefficient energy choices. For example, power, kerosene and domestic
gas are highly subsidized. All subsidies on fossil fuels should be phased out.
E. Operational efficiency of the Power sector
• In India, the primary energy resources, i.e. coal and hydro potential are concentrated in a few pockets. This
necessitates transfer of bulk power to the far off load centers through long distance transmission lines. Loss of
energy during transmission/distribution is unavoidable. On an average T & D losses are 40 percent out of which
15 percent are technical losses and 25 percent are nontechnical losses. These are very high compared with the
international average of less than 10 percent from advanced countries. Some of the causes of non-technical
losses are: direct tampering /by passing/in correct operation of the energy meter / direct tap off from distribution
network.
• The inefficiencies in the end-use systems are due to irrational tariffs, technological obsolescence of industrial
processes and equipment, lack of awareness and inadequate policy drivers (such as energy efficiency standards
and labeling system, financial incentives).
• Increasingly planning and implementation of transmission system is becoming complex these days. De-
licensing of generation, uncertainties in load growth, unbundling of the utilities, the move towards a competitive
power market and the increasing right of way concerns also present some unique challenges. [17], [20], [21].
VIII. Conclusion
While summing up the discussion this paper has identified some potential policy instruments for
fostering the generation of electricity. It can be pointed out that LIRE sources will remain a focal point of
discussion for the future energy policy as they contribute to overall aims of energy policy. Further with the
increasing import dependence, the use of renewable energy will remain on the agenda in a medium- and long-
term energy policy strategy. There is an immediate need for the change in planning strategies for power
generation to meet the future demands and for the environmental benefits. The contribution of renewable energy
sources, through small in magnitude is yet significant from the perspective of sustainability of energy and
environment.
Acknowledgements
The author is very grateful and would acknowledge the Energy Department, Maulana Azad National
Institute of Technology for providing all possible facilities for carrying out this review paper.
References
[1]. P.K.Katti, M. K. Khedka, “Fostering the use of low impact renewable energy technologies for sustainable power supply Co-Gen
2007,” organised by Institution of Engineers (India) Nagpur centre Maharashtra held during 13-14-April 2007.
[2]. Andrew Pape-Salmon, Jonathan Dogterom, Carissa Wieler, Mark Anielski, “Low-Impact Renewable Energy Policy in Canada:
Strengths, Gaps and a Path Forward,” final report Prepared by: Pembina Institute -Canada pp: 1-78, February, 2003.
[3]. Curtis Johnston: “Opportunities and Challenges for Renewable Energy Development in British Columbia: Policy Instruments to
Reduce Greenhouse Gas Emissions in the Provincial Electricity Sector Honours Thesis: Final Report.”.
[4]. N.van Beeck, "Classification of energy models," Tilburg University and Eindhoven University of Technology, May 1999.
[5]. Mukhtar H. Sahir and Arshad H. Qureshi, "Energy modeling applications for analysis of policy options - an overview," Proc. Of the
6th WSEAS Int. Conference on Simulation, Modeling and Optimization, Lisbon, Portugal, September 22-24, 2006.
[6]. CEEESA, "ENPEP", Center for Energy, “Environmental, and Economic Systems Analysis, Argonne National Laboratory,”
Argonne, Illinois, USA.
[7]. Juan Quintanilla Martinez, "Energy and Emissions Long Term Outlook - A Detailed Simulation of Energy Supply-Demand,"
Mexican-US Economic and Environmental Modeling Workshop, Mexico City, July 11-12, 2005.
[8]. ETSAP, "MARKAL", “Energy Technology Systems Analysis Programme,” Energy Research Centre of the Netherlands (ECN),
Petten, The Netherlands, December 2001.
[9]. L. G. Fishbone and H. Abilock, "MARKAL, a linear-programming model for energy systems analysis: technical description of the
BNL version,” International Journal of Energy Research, Vol.5, pp.353-375, 1981.
[10]. SEI, "LEAP - a computerized energy planning system," User Guide for Version 95.0, Stockholm Environment Institute, Boston
Center, Tellus Institute, Boston, March 1997.
[11]. IAEA, "Model for Analysis of Energy Demand" (MAED-2), User Guide, International Atomic Energy Agency, Vienna, Austria,
2006.
[12]. Sustainable Energy Future by AD2030 - India Case Study.

6. Energy Policy in India
DOI: 10.9790/1676-10136772 www.iosrjournals.org 72 | Page
[13]. Government of India · National Knowledge Commission Science and Environment, “Policies for renewable energies/biomass in
India”.
[14]. Ghosh Debyani, Shukla P.R., Garg Amit and Ramana P.V, “Renewable energy strategies for Indian April 2009, power sector,”
[Online]. Available Source: http://www.decisioncraft.com
[15]. Indian investment center, “Foreign Direct Investment Policy & Business Opportunities”.
[16]. Laxman Kumar Behera, “India Needs a Liberal FDI Policy for its Defense Industry,” January 2009, [Online].Available
http://www.indiastrategic.in
[17]. The Financial Express, “India seeks FDI in renewable energy SEZ,” Jun 27 2008 [Online], Available
http://www.financialexpress.com
[18]. Ministry of New and Renewable Energy source (MNRE) “Policy support for grid interactive renewable power,” [Online].
Available: http://mnes.nic.in
[19]. MNRE, “Review of government of India policies for promotion of renewable and biomass energy utilization in India,” [Online]
Available Source:-http://www.nri.org
[20]. Saifur Rahman and Arnulfo de Castro, "Environmental Impacts of Electricity Generation: A Global Perspective," IEEE Trans. On
Energy Conversion, Vol.10, No.2, pp 307-314, June 1995.
[21]. www.mnes.nic.in